Production of metastatic phenotype with DNA from metastatic cells but not with oncogenic DNA

Although the tumorigenic phenotype can be transferred by transfecting DNA from a variety of human tumours into 3T3 mouse fibroblasts, the ability to transfer the metastatic phenotype in a similar manner in syngeneic animals is largely unknown. We now report that transfection of a rat mammary epithelial cell line Rama 37, which produces nonmetastasizing adenomatous tumours in syngeneic rats, with DNA from a metastasizing rat mammary cell line, Rama 800, yields some transfectants with reproducible metastatic capabilities. Nonspecific DNA or the oncogenes EJ-ras-1 or Polyoma Large T Antigen fail in this respect, although their transfectants often possess increased tumorigenic potential.     

Overexpression of protein kinase Calpha in MCF-10A human breast cells engenders dramatic alterations in morphology, proliferation, and motility.

A nonmetastatic human mammary epithelial cell line (MCF-10A) was engineered to overproduce protein kinase Calpha (PKCalpha) so as to investigate a role for this isoform in the metastatic phenotype. PKCalpha transfectants (clone 26alpha) expressed an 8-fold higher level of PKCalpha protein without compensatory alterations in other isoforms. Clone 26alpha proliferated slowly (accumulating in G1 of the cell cycle) but exhibited pronounced increases in motility and adhesion. Elevated expression of cell cycle inhibitor p27 and focal adhesion proteins was observed, whereas E-cadherin expression decreased to undetectable levels. These observations were consistent with the morphology of PKCalpha transfectants (large, disaggregated, and flat, with lamellipodia and extensive actin fibers) and control cells (small, aggregated, and refractile). Treatment with PKC inhibitors or transfection of a dominant negative (dn) mutant of Rac1, but neither dn RhoA nor dn cdc42, reduced the motility of clone 26alpha, implicating PKCalpha catalytic activity and endogenous Rac1, respectively, in the PKCalpha-induced phenotype. Overall, PKCalpha overexpression suppresses proliferation while endowing MCF-10A cells with properties consistent with the metastatic phenotype.     

Plasmid, phage, and genomic DNA-mediated transfer and expression of prokaryotic and eukaryotic genes in cultured human cells

Transfection of mammalian cells with genomic DNA and cloned genes is now relatively routine. However, the vast majority of studies have used rodent cells as recipients. Here we describe efficient transfection of two human cell lines, the hypoxanthine guanine phosphoribosyltransferase (HPRT)-deficient HeLa line, D98/AH-2, and the adenine phosphoribosyltransferase (APRT)-deficient HT1080 line, HTD114. D98/AH-2 cells were transfected with the pSV2-gpt plasmid of Mulligan and Berg, which contains the E. coli xanthine-guanine phosphoribosyltransferase (gpt) gene, and Gpt + transfectants were selected in HAT medium. HTD114 cells were transfected with (1) genomic hamster DNA, and ouabain resistant transfectants were selected in 5 X 10(-7)M ouabain; (2) with hamster and mouse genomic DNA, and Aprt + cells were selected in AAA medium; (3) with plasmids containing either the cloned hamster or mouse APRT genes, and Aprt + cells were selected; and (4) with phage particles containing a cloned mouse APRT gene, and Aprt + cells were selected. Transfection efficiencies ranged from 0.25 to 1.5 X 10(3) transfectants per microgram DNA, and in certain cases secondary transfections were done. Foreign DNA in recipients was detected by blot hybridization, and the expression of foreign genes was detected by cell growth in selective media and the expression of enzymes characteristic of the species of the donor DNA. The majority of transfectants showed stable expression of the transgenome.     

New acceptor cell for transfected genomic DNA: oncogene transfer into a mouse mammary epithelial cell line.

A line of mouse mammary epithelial cells (NMuMG) has been characterized for its ability to be stably transfected with exogenous DNA. A transfection frequency of at least 1 cell per 1,000 was obtained with the pSV2neo plasmid. Several thousand G418-resistant NMuMG cell clones can easily be generated in cotransfection of genomic DNA and pSV2neo. The NMuMG cells were isolated from normal mammary glands and do not form malignant lesions when injected into nude mice. We have cotransfected NMuMG cells with pSV2neo and genomic DNA from the human EJ bladder carcinoma line, a cell line which contains an activated c-rasH oncogene. When a pool of 4,700 G418-resistant colonies was injected into nude mice, tumors were obtained. These tumors contain a transfected human rasH gene. Genomic DNA transfection into a line of mouse epithelial cells, in combination with the selection of stable transfectants and tumor induction in nude mice, can be used to screen human tumor DNA for the presence of activated oncogenes.     

Complementation of a methotrexate uptake defect in Chinese hamster ovary cells by DNA-mediated gene transfer.

A methotrexate-resistant Chinese hamster ovary cell line deficient in methotrexate uptake has been complemented to methotrexate sensitivity by transfection with DNA isolated from either wild-type Chinese hamster ovary or human G2 cells. Primary and secondary transfectants regained the ability to take up methotrexate in a manner similar to that of wild-type cells, and in the case of those transfected with human DNA, to contain human-specific DNA sequences. The complementation by DNA-mediated gene transfer of this methotrexate-resistant phenotype provides a basis for the cloning of a gene involved in methotrexate uptake.     

The Walker 256 carcinoma: a cell type inherently sensitive only to those difunctional agents that can form DNA interstrand crosslinks.

The Walker 256 rat tumour has been maintained in vivo for over 60 years and until recently was used as a primary screen for new antitumour agents. This screen was particularly useful in identifying difunctional alkylating agents as potentially useful anticancer agents and it would seem that the Walker tumour is composed of cells sensitive towards this type of agent. A cell line (WS) established from the Walker tumour retained the sensitivity of the tumour towards difunctional agents and we have examined its phenotype in comparison to a derived, resistant, cell line (WR). The response of WR cells to a range of cytotoxic agents was similar to other established cell lines whilst WS cells were much more sensitive only towards difunctional reacting agents. There were no significant differences in the binding of these agents to the DNA of WS or WR cells. All the agents towards which WS cells showed sensitivity were, without exception, capable of reacting with DNA in Walker cells and forming DNA-DNA interstrand crosslinks. WS cells were not sensitive to busulphan, BCNU, CCNU or Me-CCNU but these agents did not produce interstrand crosslinks in the DNA of either WS or WR cells. Thus WS cells are intrinsically sensitive to specific DNA damage and this is probably a DNA interstrand crosslink. Hybrid cells produced by fusion of WS with WR cells lacked the inherent sensitivity of the WS cells towards cisplatin; sensitivity was therefore a recessive characteristic. Transfection of WS cells with human DNA also gave rise to 2 cisplatin-resistant clones, although it could not be ascertained if these clones were true transfectants or revertants. The survival of these resistant clones, after treatment with cisplatin, was about the same as WR cells a finding which would be consistent with complementation by a transferred gene or reversion of a single gene defect in WS cells. In their sensitivity only to difunctional compounds and lack of an apparent DNA excision repair defect the phenotype of Walker cells strongly resembles those cells from human patients suffering from Fanconi's anaemia and also of yeast snm1 mutant cells. The mechanisms giving rise to this failure to tolerate specific DNA damage (which seems to involve the inability to recover from the initial inhibition of DNA synthesis and may involve a single defect of a gene involved in the late steps of crosslink repair), do not involve drug uptake, drug binding to DNA, cell size, cell doubling time or DNA excision repair.     

Transfection by genomic DNA of cytochrome P1-450 enzymatic activity and inducibility.

An aryl hydrocarbon hydroxylase (AHH)-deficient gene A- mutant of the mouse line Hepa-1 was treated with calcium phosphate precipitates of DNA from Hepa-1, the rat line H4IIEC3, or an A- -human hybrid in which the A- mutation is complemented by the corresponding human gene. AHH+ transfectants were isolated by selection with benzo[ghi]perylene plus near UV. In addition, a gene A- mutant which also carries a mutation for hypoxanthine phosphoribosyltransferase deficiency was treated with the above genomic DNAs together with pSV2-gpt DNA, and cotransfectants were isolated after treatment with both benzo[ghi]pereylene and HAT. All transfectants and cotransfectants were inducible for AHH by 2,3,7,8-tetrachlorodibenzo-p-dioxin. Both transfectants and cotransfectants were unstable during culture, rapidly losing AHH activity. Rat DNA-derived transfectants were probed in Southern blots with a cDNA probe to mouse cytochrome P1-450 that cross-hybridizes to the corresponding rat gene. All rat DNA-derived transfectants contained the rat P1-450 gene. In half of the transfectants, the rat gene was amplified four- to sevenfold. In one transfectant, the rat gene was truncated at the 3' end. The proportion of rat DNA in different transfectants, as determined by hybridization to a rat repetitive sequence, ranged from less than 1% to 5%. AHH activity and the rat P1-450 gene segregated together in subclones of one of the transfectants. These results demonstrate that the A gene is either the structural gene for cytochrome P1-450, or another very closely linked gene. Previous results (O. Hankinson et al., J. Biol. Chem. 260:1790-1795, 1985) favor the former alternative.     

p53 increases experimental metastatic capacity of murine carcinoma cells.

Transfection of a cloned p53 gene into a murine bladder carcinoma cell with a low metastatic capacity led to elevated levels of p53 protein in clonal transfectants. After intravenous inoculation into syngeneic mice, p53-transfected clones showed significantly increased metastatic potential in comparison with control transfectants. The observed change did not seem to be due to a change in growth potential per se since the cell lines showed similar growth properties in vitro.     

The origin of O6-methylguanine-DNA methyltransferase in Chinese hamster ovary cells transfected with human DNA

Transfection of Chinese hamster ovary (CHO) cells with human DNA has been shown in several laboratories to produce clones which stably express the DNA-repair protein, O6-methylguanine-DNA methyltransferase (MGMT), that is lacking in the parent cell lines (Mex- phenotype). We have investigated the genetic origin of the MGMT in a number of such MGMT-positive (Mex+) clones by using human MGMT cDNA and anti-human MGMT antibodies as probes. None of the five independently isolated Mex+ lines has human MGMT gene sequences. Immunoblot analysis confirmed the absence of the human protein in the extracts of these cells. The MGMT mRNA in the lines that express low levels of MGMT (0.6-1.4 x 10(4) molecules/cell) is of the same size (1.1 kb) as that present in hamster liver. One cell line, GC-1, with a much higher level of MGMT (4 x 10(4) molecules/cell) has two MGMT mRNAs, a major species of 1.3 kb and a minor species of 1.8 kb. It has also two MGMT polypeptides (32 and 28 kDa), both of which are larger than the 25 kDa MGMT present in hamster liver and other Mex+ transfectants. These results indicate that the MGMT in all Mex+ CHO cell clones is encoded by the endogenous gene. While spontaneous activation of the MGMT gene cannot be ruled out in the Mex+ cell clones, the intervention of human DNA sequences may be responsible for activation of the endogenous gene in the GC-1 line.     

H-2K double transfectants of tumor cells as antimetastatic cellular vaccines in heterozygous recipients. Implications for the T cell repertoire.

In this study we demonstrate that antitumor CTL repertoire restricted to a single MHC class I allele is higher in homozygous than in heterozygous mice. Consequently, transfection of two parental H-2K genes, but not of a single H-2K gene into a highly metastatic H-2K-negative tumor clone, resulted in abrogation of metastatic properties in F1 recipients. Clones of the 3LL carcinoma, which are low H-2Kb expressors, are nonimmunogenic and highly metastatic. Transfection of H-2K genes converted cells of such clones to nonmetastatic in syngeneic homozygous mice. However, in semi-syngeneic heterozygous mice, single H-2K transfectants retained their metastatic phenotype. In such heterozygous mice, i.e., in (H-2d x H-2b)F1, or in (H-2k x H-2b)F1, transfection of the two parental H-2K genes was required for complete abolishment of the metastatic phenotypes. In fact, in these heterozygous animals, even the local growth (i.e., tumorigenicity) of the double H-2K transfectants was significantly suppressed. These observations are attributed to the difference between homozygous and heterozygous mice with regard to the T cell repertoire restricted to a single H-2K-tumor-associated antigen complex. The reduced tumorigenicity and the complete abrogation of the metastatic phenotype was a function of a high immunogenic competence of the double transfectants in F1 heterozygous mice, which was significantly higher than that of single transfectants, as measured by the induction of CTL and of their precursors. Immunization of F1 mice by inactivated double transfectants conferred protection against metastasis formation by a subsequent graft of the parental D122 cells. Single transfectants were only marginally effective in conferring such protection. Applying an immunotherapy protocol, we observed that a series of vaccinations with double transfectants of animals already carrying a parental tumor reduced significantly the generation of metastasis by the otherwise highly metastatic D122 cells.     

Specificity of gap junction communication among human mammary cells and connexin transfectants in culture

In a previous paper (Lee et al., 1992), it was shown that normal human mammary epithelial cells (NMEC) express two connexin genes, Cx26 and Cx43, whereas neither gene is transcribed in a series of mammary tumor cell lines (TMEC). In this paper it is shown that normal human mammary fibroblasts (NMF) communicate and express Cx43 mRNA and protein. Transfection of either Cx26 or Cx43 genes into a tumor line, 21MT-2, induced the expression of the corresponding mRNAs and proteins as well as communication via gap junctions (GJs), although immunofluorescence demonstrated that the majority of Cx26 and Cx43 proteins present in transfected TMEC was largely cytoplasmic. Immunoblotting demonstrated that NMEC, NMF, and transfected TMEC each displayed a unique pattern of posttranslationally modified forms of Cx43 protein. The role of different connexins in regulating gap junction intercellular communication (GJIC) was examined using a novel two-dye method to assess homologous and heterologous communication quantitatively. The recipient cell population was prestained with a permanent non-toxic lipophilic dye that binds to membranes irreversibly (PKH26, Zynaxis); and the donor population is treated with a GJ-permeable dye Calcein, a derivative of fluorescein diacetate (Molecular Probes). After mixing the two cell populations under conditions promoting GJ formation, cells were analyzed by flow cytometry to determine the percentage of cells containing both dyes. It is shown here that Cx26 and Cx43 transfectants display strong homologous communication, as do NMEC and NMF. Furthermore, NMEC mixed with NMF communicate efficiently, Cx26 transfectants communicate with NMEC but not with NMF, and Cx43 transfectants communicate with NMF. Communication between Cx26 TMEC transfectants and NMEC was asymetrical with preferential movement of calcein from TMEC to NMEC. Despite the presence of Cx43 as well as Cx26 encoded proteins in the GJs of NMEC, few Cx43 transfectants communicated with NMEC. No heterologous GJIC was observed between Cx26- and Cx43-transfected TMEC suggesting that heterotypic GJs do not form or that Cx26/Cx43 channels do not permit dye transfer.     

bcl-2 overexpression inhibits cell death and promotes the morphogenesis, but not tumorigenesis of human mammary epithelial cells [published erratum appears in J Cell Biol 1995 Nov;131(4):following 1121]

Overexpression of the B cell leukemia/lymphoma-2 (bcl-2) gene has been shown to confer a survival advantage on cells by inhibiting apoptosis. In epithelia, the bcl-2 gene is also related to development and differentiation, and the protein is strongly expressed in the embryo in the epithelial cells of the developing mammary gland. To investigate directly the effect of bcl-2 on human epithelial cells, we used an amphotropic recombinant retrovirus to introduce the gene into nontumorigenic cell lines developed from luminal epithelial cells cultured from milk. Here we demonstrate that while bcl-2 overexpression does not directly induce the tumorigenic phenotype, it provides a survival advantage to the mammary epithelial cells by inhibiting cell death at confluence or under conditions of serum starvation, bcl-2 can also affect the phenotype of the original epithelial cells, and promote epithelial-mesenchymal conversion, accompanied by loss of the cell adhesion molecules E-cadherin and alpha 2 beta 1 integrin. The extent of the epithelial-mesenchymal conversion varies with small differences in the phenotype of the parental line and with the level of expression of Bcl-2 and in some cases cell lines emerge with a mixed phenotype. The increased survival of Bcl-2-expressing cells at confluence results in multilayering, and the development of three- dimensional structures. Where a mixed phenotype is observed these structures consist of an outer layer of polarized epithelial cells separated by a basement membrane-like layer from an inner mass of fibroblastoid cells. Branching morphogenesis of bcl-2 transfectants is also observed in collagen gels (in the absence of fibroblast growth factors). The results strongly indicate that by increasing their survival under restrictive growth conditions, and by modifying the epithelial phenotype, bcl-2 can influence the specific morphogenetic behavior of mammary epithelial cells.     

Evidence for a protein-trafficking gene that rescues the defective glucocorticoid-regulated transport and Golgi retention of mouse mammary tumor virus glycoproteins in a rat hepatoma cell-sorting variant.

Glucocorticoids regulate the trafficking of cell surface mouse mammary tumor virus (MMTV) glycoproteins in the virus-infected rat hepatoma cell line M1.54. The CR4 rat hepatoma sorting variant, which is derived from M1.54 cells by immunoselection, is uniquely defective in the glucocorticoid-regulated transport of MMTV glycoproteins. Indirect immunofluorescence of fixed permeabilized cells and subcellular fractionation of isolated microsomes revealed that variant CR4 cells retain the MMTV glycoproteins in Golgi-like membranes after glucocorticoid treatment. The variant CR4 phenotype can be complemented by interspecies cell fusions with human HepG2 hepatoma cells and by DNA rescue with genomic fragments isolated from either human or rat hepatoma cells. Transfected wild-type genomic fragments rescue the sorting defect in CR4 at a frequency consistant with a single genetic locus, whereas homologous transfection with CR4 genomic DNA has no effect. Thus, complementation of a rat hepatoma cell-sorting variant supports the existence of a novel protein-trafficking activity encoded by the human or rat genomes that acts in trans in the Golgi to selectively mediate the sorting of cell surface MMTV glycoproteins in glucocorticoid-treated cells.     

Stellate- and foci-formation of mouse fibroblast cells transfected with various cancer cell DNA

Two methods of DNA-mediated gene-transfer, namely, CaPO4 co-precipitation and polybrene/DMSO-induction were used to analyse oncogenes from various cancer cell-lines. Third time transfection of mouse fibroblast cells, NIH/3T3 with 10, 100, 1,000 and 3,000 ng of DNA from spontaneous human hepatoma cells produced 41, 4, 45 and 56 foci, respectively. It appears that 100 ng of this hepatoma cell DNA gave the least effective transformation ability. However, with two spontaneous mammary cancer cell lines, 100 ng DNA gave the highest number of foci. In general, during the initial transfection, the cells appeared semi-transformed, showing stellate growth patterns. With repeated transfections they gave way to foci. However, with aflatoxin-induced rat hepatoma cell (JB-1) DNA, only stellate growths persisted to indicate intermediate transformation. Transfection of the epithelial-like normal rat liver cell line, BL8 with JB-1 DNA produced haphazard growth pattern, although a hepatoma-associated enzyme, gamma-glutamyl transferase was introduced into the BL8 cells which previously had no detectable enzyme activity.     

Establishment and characterization of new mammary adenocarcinoma cell lines derived from double transgenic mice expressing GFP and neu oncogene

A new murine cell line, named GFPneu, was established from a mammary adenocarcinoma arising in double transgenic MMTVneu x CMV-GFP mice. Breast tumours develop in 100% of females after 2 months latency, as a result of the over-expression of the activated rat neu oncogene in the mammary glands. All tissues, and in particular the breast tumours, express the GFP protein. This cell line was tumorigenic when inoculated into nude mice and the derived tumours showed the same histological features as the primaries from which they were isolated. Their histopathology reproduces many characteristics of human breast adenocarcinomas, in particular their ability to metastasize. The GFP marker allows us to visualize the presence of lung metastases in fresh tissues immediately, to confirm the histopathology. From a lung metastatic fluorescent nodule, we derived a further cell line, named MTP-GFP, which we also characterized. These two cell lines could be useful to study the role played by the neu oncogene in the maintenance of the transformed phenotype, in the metastatic process, to test novel therapeutic strategies to inhibit primary tumour growth and to observe the generation of distant metastases.     

Caveolin-1 inhibits epidermal growth factor-stimulated lamellipod extension and cell migration in metastatic mammary adenocarcinoma cells (MTLn3). Transformation suppressor effects of adenovirus-mediated gene delivery of caveolin-1

Caveolin-1 is a principal component of caveolae membranes that may function as a transformation suppressor. For example, the human caveolin-1 gene is localized to a suspected tumor suppressor locus (D7S522; 7q31.1) that is deleted in human cancers, including mammary carcinomas. However, little is known about the role of caveolins in regulating cell movement, a critical parameter in determining metastatic potential. Here, we examine the role of caveolin-1 in cell movement. For this purpose, we employed an established cellular model, MTLn3, a metastatic rat mammary adenocarcinoma cell line. In this system, epidermal growth factor (EGF) stimulation induces rapid lamellipod extension and cell migration. Interestingly, we find that MTLn3 cells fail to express detectable levels of endogenous caveolin-1. To restore caveolin-1 expression in MTLn3 cells efficiently, we employed an inducible adenoviral gene delivery system to achieve tightly controlled expression of caveolin-1. We show here that caveolin-1 expression in MTLn3 cells inhibits EGF-stimulated lamellipod extension and cell migration and blocks their anchorage-independent growth. Under these conditions, EGF-induced activation of the p42/44 mitogen-activated protein kinase cascade is also blunted. Our results suggest that caveolin-1 expression in motile MTLn3 cells induces a non-motile phenotype.     

Isolation of a clone which induces expression of the gene encoding the human tumor necrosis factor receptor.

Tumor necrosis factor (TNF) is a cytokine with pleiotropic effects upon cell growth, inflammation and immunologic responsiveness. High-affinity TNF receptors (TNFRs) of 55 and 75 kDa are found in many cell types. Using an Epstein-Barr virus (EBV)-based mammalian expression library, we have isolated a clone from human lymphoblastoid transfectants that induces overexpression of the TNFR-encoding gene (TNFR). Transfectants overproducing the TNFR were isolated by multiple rounds of sorting on a fluorescence-activated cell sorter using fluorescent TNF ligand binding as the selection procedure. Among the sorted transfectants were cells producing approx. 150,000 receptors per cell (Kd of approx. 1 nM). These cells have multiple copies of the TNFR gene present as extrachromosomal plasmids. These cells also overproduced the mRNA for TNFR. Low-Mr EBV episomes were isolated from these overproducing cells and used to transform Escherichia coli. One of the colonies isolated contained a plasmid encoding a portion of the noncoding region of the TNFR gene. Transfection of human lymphoblastoid cells with this DNA gave rise to high-level production of TNFR. Fluorescent TNF bound to these transfectants is fully and specifically displaced by an excess of TNF. The rescued clone contains approx. 10 kb of human genomic DNA including the 3'-untranslated region of TNFR and several Alu sequences; apparently during the selection procedure in human cells, recombination occurred to rescue a portion of the TNFR gene. Transient transfection was used to narrow down the region responsible for TNFR induction to 5.2 kb. The mechanism by which this clone induces TNFR expression has not been determined.     

Rspo2/Int7 regulates invasiveness and tumorigenic properties of mammary epithelial cells

Rspo2 was identified as a novel common integration site (CIS) for the mouse mammary tumor virus (MMTV) in viral induced mouse mammary tumors. Here we show that Rspo2 modulates Wnt signaling in mouse mammary epithelial cells. Co‐expression of both genes resulted in an intermediate growth phenotype on plastic and had minor effects on the growth‐promoting properties of Wnt1 in soft agar. However, individual Rspo2 and Wnt1 HC11 transfectants as well as the double transfectant were tumorigenic in athymic nude mice, with tumors from each line having distinctive histological characteristics. Rspo2 and Rspo2/Wnt1 tumors contained many spindle cells, consistent with an epithelial–mesenchymal transformation (EMT) phenotype. When Rspo2 and Rspo2/Wnt1 tumor cells were transferred into naïve mice, they exhibited greater metastatic activity than cells derived from Wnt1 tumors. For comparison, C57MG/Wnt1/Rspo2 co‐transfectants exhibited invasive properties in three‐dimensional (3D) Matrigel cultures that were not seen with cells transfected only with Wnt1 or Rspo2. Use of Dickkopf‐1, a specific antagonist of the Wnt/β‐catenin pathway, or short hairpin RNA targeting β‐catenin expression demonstrated that the invasive activity was not mediated by β‐catenin. Our results indicate that Rspo2 and Wnt1 have mutually distinct effects on mammary epithelial cell growth and these effects are context‐dependent. While Rspo2 and Wnt1 act synergistically in the β‐catenin pathway, other mechanisms are responsible for the invasive properties of stable double transfectants observed in 3D Matrigel cultures. J. Cell. Physiol. 227: 1960–1971, 2012. © 2011 Wiley Periodicals, Inc.     

DNA-mediated transfer of a human gene required for low-density lipoprotein receptor expression and for multiple Golgi processing pathways.

Transfection of a hamster cell mutant with human DNA corrected both the low-density lipoprotein receptor-deficient phenotype and the multiple glycosylation defects of the cells. Independently transfected colonies contained a small set of common human DNA fragments. These fragments may correspond to the human analog of a single gene required for several different Golgi processing pathways.